Face shield for a hockey helmet

ABSTRACT

A face shield for a hockey helmet, comprising a transparent visor portion, a bottom portion, right and left side portions, and a top portion extending upwardly and rearwardly from the top edge of the visor portion. The top portion comprises a top central transversal bar, right and left bars extending upwardly and rearwardly on the right and left sides from the top edge of the visor portion and a central projection between the right and left bars projecting upwardly and rearwardly from the top edge of the visor portion. The central bar and central projection define a transversal gap therebetween and the central bar, right and left bars and central projection define right and left hollow spaces therebetween. The transversal gap and right and left hollow spaces together define a central aeration aperture being sized to prevent a hockey stick blade or puck from impacting the wearer&#39;s face.

FIELD OF THE INVENTION

The present invention relates to a face shield for a hockey helmet.

BACKGROUND

A protective helmet is often used to protect a wearer's head during practice of a sport such as hockey, lacrosse, ringette, football and baseball. A protective helmet such as a hockey helmet sometimes comprises a visor, a face guard or face shield for protecting the wearer's face against impact with an object such as a sports implement (e.g. a stick, a stick blade, etc.), a puck, or any other object involved in hockey.

One type of face guard is a full face shield that is adapted to cover the entire face of the wearer. The face shield has a transparent visor portion to be in front of the forehead, eyes and nose of the wearer, a bottom portion for covering and encircling the mouth and chin of the wearer, and a top portion with a top transversal bar. The bottom portion normally comprises a plurality of aeration apertures for allowing the wearer to breath properly. The bottom portion also normally comprises a plurality of slots on each side for allowing passage of an adjustable strap. The face shield is attached or pivotally mounted to the helmet at its top portion and the face shield is also coupled or mounted to the helmet via the adjustable strap.

In order to mount the face shield to the helmet, right and left connectors can be used for mounting the face shield to the helmet. For instance, each of the right and left connectors comprises a base portion defining a cylindrical aperture and first and second legs extending from the base portion. The first and second legs have first and second holes for allowing passage of a screw therethrough. The connector may be a clip.

As it is well known in the art, the front of the helmet has two mounting apertures for receiving two fasteners, each of the fastener having a base portion embedded into the pad assembly of the helmet and a post. The post has an outer surface and an inner surface defining a threaded aperture. The threaded aperture has a diameter and helical threads which are adapted to accept a threaded screw.

The posts of the fasteners are located into the mounting apertures of the helmet outer shell. In use, the wearer may mount the right and left clips on the top transversal bar of the face shield top portion. Afterwards, the wearer will align the holes of the legs of one clip with one mounting aperture and will then engage a screw in the threaded aperture of the fastener for affixing the clip to the outer shell and for momentarily mounting the face shield to the helmet. The wearer will afterwards align the holes of the legs of the other clip with the other mounting aperture and will then engage another screw in the threaded aperture of the other fastener for affixing the other clip to the outer shell. Once both clips are in place, the wearer can finalize mounting of the face shield to the helmet.

In a first variant of the prior art, the face shield top portion comprises a top longitudinal bar extending upwardly and rearwardly from the top edge of the visor portion and connecting a top transversal bar for defining two apertures on each side of the face shield. Each of the apertures is sized to prevent a hockey stick blade or a puck from impacting the wearer's face. Naturally, in this first variant, one clip cannot move or slide along the entire top transversal bar because of the presence of the top longitudinal bar. In a second variant of the prior art, the top portion may have an aperture between a top transversal bar and the top edge of the visor portion where the aperture has an oblong shape such that it occupies a transversal region as long as possible and a longitudinal region that is large enough for mounting the clip on the top transversal bar while also preventing a hockey stick blade or a puck from impacting the wearer's face. However, in this second variant, the wearer has less flexibility since he cannot turn the clip when the clip is mounted on the top transversal bar and the aperture of the second variant offers very limited access to the thumb and fingers.

There is therefore a need for a face shield providing improvements in terms of facility of mounting the face shield to the helmet while still providing sufficient strength, impact resistance, and impact protection for the wearer. For instance, there is a need for an aperture offering more flexibility to the wearer by providing larger hollow spaces where the wearer can turn the clips, by allowing the wearer to insert at least partially his thumb and fingers in the aperture, while the aperture is nevertheless sized to prevent a hockey stick blade or a puck from impacting the wearer's face (to conform with certifications such as Certification CSA Z262.2-15).

SUMMARY OF THE INVENTION

As embodied and broadly described herein, according to a broad aspect, the invention provides a face shield for a hockey helmet adapted to protect a head of a wearer, the helmet having an outer shell with a front for at least partially covering a forehead of the wearer's head, the face shield having a longitudinal axis, a transversal axis and a height axis, the face shield comprising: a transparent visor portion for at least partially covering the wearer's forehead, a nose and eyes of the wearer and right and left sides of a face of the wearer, wherein the visor portion has top and bottom edges, an inner surface that is concave and an outer surface that is convex; a bottom portion for at least partially covering and encircling a mouth and a chin of the wearer; right and left side portions for at least partially covering the right and left sides of the wearer's face; and a top portion extending upwardly and rearwardly from the top edge of the visor portion, wherein the top portion comprises: a top edge portion having a curvature for generally following a curvature of the front of the outer shell, the top edge portion comprising a central bar extending along the transversal axis and being located on right and left sides with respect to the height axis; right and left bars extending upwardly and rearwardly on the right and left sides from the top edge of the visor portion and being each connected to the top edge portion; and a central projection between the right and left bars projecting upwardly and rearwardly from the top edge of the visor portion; wherein the central bar and the central projection define a transversal gap therebetween; wherein the central bar, the right and left bars and the central projection define right and left hollow spaces therebetween; and wherein the transversal gap and the right and left hollow spaces together define a central aeration aperture being sized to prevent a hockey stick blade or puck from impacting the wearer's face.

As embodied and broadly described herein, according to another broad aspect, the invention provides a face shield for a hockey helmet adapted to protect a head of a wearer, the helmet having an outer shell with a front for at least partially covering a forehead of the wearer's head, the face shield having a longitudinal axis, a transversal axis and a height axis, the face shield comprising: a transparent visor portion for at least partially covering the wearer's forehead, a nose and eyes of the wearer and right and left sides of a face of the wearer, wherein the visor portion has top and bottom edges, an inner surface that is concave and an outer surface that is convex; a bottom portion for at least partially covering and encircling a mouth and a chin of the wearer; right and left side portions for at least partially covering the right and left sides of the wearer's face; and a top portion extending upwardly and rearwardly from the top edge of the visor portion, wherein the top portion comprises: a top edge portion having a curvature for generally following a curvature of the front of the outer shell, the top edge portion comprising a central bar extending along the transversal axis and being located on right and left sides with respect to the height axis; right and left bars extending upwardly and rearwardly on the right and left sides from the top edge of the visor portion and being each connected to the top edge portion; and a central projection between the right and left bars projecting upwardly and rearwardly from the top edge of the visor portion; wherein the central bar and the central projection define a transversal gap therebetween; wherein the central bar, the right and left bars and the central projection define right and left hollow spaces therebetween; and wherein the transversal gap and the right and left hollow spaces together define a central aeration aperture being sized to prevent a hockey stick blade or puck from impacting the wearer's face and wherein one of the right and left hollow spaces allows a connector mounted on the central bar to pivot within the hollow space.

As embodied and broadly described herein, according to further broad aspect, the invention provides a face shield for a hockey helmet adapted to protect a head of a wearer, the helmet having an outer shell with a front for at least partially covering a forehead of the wearer's head, the face shield having a longitudinal axis, a transversal axis and a height axis, the face shield comprising: a transparent visor portion for at least partially covering the wearer's forehead, a nose and eyes of the wearer and right and left sides of a face of the wearer, wherein the visor portion has top and bottom edges, an inner surface that is concave and an outer surface that is convex; a bottom portion for at least partially covering and encircling a mouth and a chin of the wearer, the bottom portion comprising a bottom edge portion extending downwardly and rearwardly for facing a bottom surface of the wearer's chin and wherein the bottom edge portion comprises top and bottom edges; right and left side portions for at least partially covering the right and left sides of the wearer's face; and a top portion extending upwardly and rearwardly from the top edge of the visor portion, wherein the top portion comprises: a top edge portion having a curvature for generally following a curvature of the front of the outer shell, the top edge portion comprising a central bar extending along the transversal axis and being located on right and left sides with respect to the height axis; right and left bars extending upwardly and rearwardly on the right and left sides from the top edge of the visor portion and being each connected to the top edge portion; and a central projection between the right and left bars projecting upwardly and rearwardly from the top edge of the visor portion; wherein the central bar and the central projection define a transversal gap therebetween; wherein the central bar, the right and left bars and the central projection define right and left hollow spaces therebetween; wherein the transversal gap and the right and left hollow spaces together define a central aeration aperture being sized to prevent a hockey stick blade or puck from impacting the wearer's face; and wherein the bottom portion comprises a right bottom bar located on the right side and a left bottom bar located on the left side, and wherein the right bottom bar, the bottom edge of the visor portion, the left bottom bar and the top edge of the bottom edge portion define therebetween a central bottom aeration aperture for facing the wearer's mouth.

BRIEF DESCRIPTION OF THE DRAWINGS

A detailed description of the embodiments of the present invention is provided herein below, by way of example only, with reference to the accompanying drawings, in which:

FIG. 1 is a front side perspective view of a head of a wearer;

FIG. 2 is a side view of the wearer's head;

FIG. 3 is a front side perspective view of a face shield for a hockey helmet according to an embodiment;

FIG. 4 is a front view of the face shield of FIG. 3;

FIG. 5 is a side view of the face shield of FIG. 3;

FIG. 6 is a top inner view of the face shield of FIG. 3;

FIG. 7 is an enlarged fragmentary top view of a top portion of the face shield of FIG. 3;

FIG. 8 is an enlarged fragmentary front view of a top portion of the face shield with right and left connectors mounted on the central bar; and

FIG. 9 is a front side perspective view of the face shield of FIG. 3 with right and left connectors, right and left fasteners, and a hockey helmet.

In the drawings, embodiments of the invention are illustrated by way of examples. It is to be expressly understood that the description and drawings are only for the purpose of illustration and are an aid for understanding. They are not intended to be a definition of the limits of the invention.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

Before any variants, examples and preferred embodiments of the invention are explained in details, it is to be understood that the invention is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments and of being practiced or of being carried out in various ways.

Moreover, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of “including,” “comprising,” or “having” and variations thereof herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. Unless specified or limited otherwise, the terms “mounted,” “connected,” “supported,” and “coupled” and variations thereof are used broadly and encompass both direct and indirect mountings, connections, supports, and couplings and are thus intended to include direct connections between two members without any other members interposed therebetween and indirect connections between members in which one or more other members are interposed therebetween. Further, “connected” and “coupled” are not restricted to physical or mechanical connections or couplings. Additionally, the words “lower”, “upper”, “upward”, “down” and “downward” designate directions in the drawings to which reference is made. The terminology includes the words specifically mentioned above, derivatives thereof, and words or similar import.

FIGS. 1 and 2 show a wearer's head comprising a front region FR, right and left side regions RS, LS, a back region BR, and a top region TR. The front region FR includes a face F of the wearer, eyes E, a nose N and a mouth M of the wearer' face F, a chin C, a forehead FH. The right and left side regions RS, LS are located between the front region FR and the back region BR of the head and respectively include right and left temples and ears and right and left lateral parts of the head in right and left temporal bone areas of the head. The back region BR has a rear upper part and an occipital protuberance in a parietal bone area and occipital bone area.

FIG. 9 shows a hockey helmet 200 wearable on the wearer's head to protect the wearer's head when the helmet 200 is impacted (e.g., when the helmet 200 hits a board or an ice or other skating surface of a hockey rink or is struck by a puck or a hockey stick). The helmet 200 protects various regions of the wearer's head.

The hockey helmet 200 comprises an outer shell with a front for facing at least partially of the forehead FH, a back for facing the back region BR of the wearer's head, right and left sides for respectively facing the right and left side regions RS, LS of the wearer's head, and a top for facing the top region TR of the wearer's head. The helmet 200 has an external surface and an internal surface that defines a cavity for receiving the wearer's head and contacts the wearer's head when the helmet 200 is worn.

FIGS. 3 to 6 show a face shield 10 for the hockey helmet 200. The face shield 10 has a front-back axis, a left-right axis, and a top-bottom axis that are respectively generally parallel to a dorsoventral axis, a dextrosinistral axis, and a cephalocaudal axis of the wearer when the helmet 200, with the face shield 10, is on the wearer's head. Since they are generally oriented longitudinally and transversally of the face shield 10, the front-back axis and the left-right axis can also be referred to as a longitudinal axis and a transversal axis, respectively. As it is generally oriented along a height of the face shield 10, the top-bottom axis can also be referred to as a height axis. Hence, the face shield has a longitudinal axis LA, a transversal axis TA and a height axis HA as shown in FIG. 3.

The face shield 10 may comprise any suitable polymer or glass material. For example, in one embodiment, the face shield comprises polymeric material having suitable impact-resistance. More particularly, in this embodiment, the polymeric material of the face shield 10 is polycarbonate. The face shield 10 may comprise any other suitable polymeric material and/or any other type of material in other examples of implementation (e.g., clear nylon, urethane-based material, polymethyl methacrylate, etc.).

The face shield 10 has a transparent visor portion 12 for covering at least partially the wearer's forehead FH, the nose N and the eyes E of the wearer and the right and left sides the face F of the wearer. It is understood that the terms “transparent visor portion” covers a portion that is at least partially transparent, clear, translucid or light-transmitting to allow the wearer to properly see through the visor portion 12.

The face shield 10 also comprises a bottom portion 14 for at least partially covering and encircling the mouth M and the chin C of the wearer, right and left side portions 16, 18 for covering the right and left sides of the wearer's face F and a top portion 20 for at least partially covering the forehead FH.

The visor portion 12 has top and bottom edges 22, 24, an inner surface 26 that is concave and an outer surface 28 that is convex.

The top portion 20 extends upwardly and rearwardly from the top edge 22 of the visor portion 12. The top portion 20 comprises a top edge portion 30 having a curvature for generally following a curvature of the front of the hockey helmet 200. The top edge portion 30 comprises a central bar 32 extending along the transversal axis TA and being located on right and left sides of the height axis HA. The top portion 20 also comprises first right and left bars 34, 36 extending upwardly and rearwardly on the right and left sides from the top edge 22 of the visor portion 12 and being each connected to the top edge portion 30. Moreover, the top portion 20 comprises a central projection 38 between the right and left bars 34, 36 projecting upwardly and rearwardly from the top edge 22 of the visor portion 12.

As best seen in FIGS. 7 and 8, the central bar 32 and the central projection 38 define a transversal gap 40 therebetween. Also, the central bar 32, the first right and left bars 34, 36 and the central projection 38 define right and left hollow spaces 42, 44 therebetween. The transversal gap 40 and the right and left hollow spaces 42, 44 together define a central aeration aperture 46 for facilitating air circulation and being sized to prevent a hockey stick blade or a puck from impacting the wearer's face. For instance, the central aeration aperture 46 is sized to prevent an object having a width of 150 mm (5.9 inches), a height of 50 mm (1.96 inches) and a thickness of 6 mm (0.24 inch) to enter in the central aeration aperture. The central aeration aperture 46 is sized to conform with certifications such as Certification CSA Z262.2-15.

While the figures show a specific shape of the central aeration aperture 46, is it understood that the central aeration aperture may have any other shape in other examples of implementation as long as the top portion has a central projection with a transversal gap that allows movement of a connector (clip) along the central bar and as long as the central aeration aperture prevents a hockey stick blade or a puck from impacting the wearers face to conform with certifications such as Certification CSA Z262.2-15.

In addition to facilitating ventilation or air circulation, the central aeration aperture 46 may also be beneficial for the wearer's vision. For example, the central aeration aperture may make the face shield 10 less obstructive to the wearer's vision (e.g., when the wearer's head is down and his eyes are looking up). The central aeration aperture 46 renders the face shield 10 more airy, which may help in terms of wearer's fit, vision and ventilation.

The top portion 20 also comprises right and left side ends 48, 50 joining together the top edge portion 30 and the visor portion 12 and second right and left bars 52, 54 extending upwardly and rearwardly from the top edge 22 of the visor portion 12 and being each connected to the top edge portion 30.

The first right bar 34, the top edge portion 30, the top edge 22 of the visor portion 12 and the second right bar 52 define a first right aeration aperture 56 therebetween and the right side end 48, the top edge portion 30, the top edge 22 of the visor portion 12 and the second right bar 52 define a second right aeration aperture 58 therebetween. Similarly, the first left bar 36, the top edge portion 30, the top edge 22 of the visor portion 12 and the second left bar 54 define a first left aeration aperture 60 therebetween and the left side end 50, the top edge portion 30, the top edge 22 of the visor portion 12 and the second left bar 54 define a second left aeration aperture 62 therebetween.

The bottom portion 14 comprises a bottom edge portion 64 extending downwardly and rearwardly for facing a bottom surface of the wearer's chin C, the bottom edge portion 64 comprising top and bottom edges 66, 68.

The bottom portion 14 comprises a plurality of bottom bars extending downwardly and rearwardly from the bottom edge 24 of the visor portion 12 towards the top edge 66 of the bottom edge portion 64 and being connected to the bottom edge portion 64.

In one embodiment, the plurality of bottom bars comprises a first right bottom bar 70 located on the right side of the height axis HA and a first left bottom bar 72 located on the left side of the height axis HA. The first right bottom bar 70, the bottom edge 24 of the visor portion 12, the first left bottom bar 72 and the top edge 66 of the bottom edge portion 64 define therebetween a central bottom aeration aperture for facing the wearer's mouth.

In the embodiment shown in the figures, the bottom portion 14 comprises a plurality of slots 74 on each side for allowing passage of an adjustable strap. The bottom portion 14 also comprises a bottom transversal bar 76 extending from the right side portion 16 to the left side portion 18 along a curvature and being located between the bottom edge 24 of the visor portion 12 and the top edge 66 of the bottom edge portion 64. The first right and left bottom bars 70, 72 are each connected to the bottom transversal bar 76.

The first right bottom bar 70, the bottom edge 24 of the visor portion 12, the first left bottom bar 72 and the bottom transversal bar 76 define therebetween a first central bottom aeration aperture 78 for facing the wearer's mouth and the first right bottom bar 70, the bottom transversal bar 76, the first left bottom bar 72 and the top edge 66 of the bottom edge portion 64 define therebetween a second central bottom aeration aperture 80 for facing the wearer's mouth. The first and second central bottom apertures 78, 80 have first and second sizes and the first size may be larger or similar than the second size.

The plurality of bottom bars may comprise second and third right bars 82, 84 extending between the bottom edge 24 of the visor portion 12 and the top edge 66 of the bottom edge portion 64 and being each connected to the transversal bottom bar 76 and second and third left bars 86, 88 extending between the bottom edge 24 of the visor portion 12 and the top edge 66 of the bottom edge portion 64 and being each connected to the transversal bottom bar 76 for defining four additional aeration apertures 90, 92, 94, 96 on the right side and for additional aeration apertures 98, 100, 102, 104 on the left side.

As seen in FIGS. 8 and 9, the face shield 10 also comprises right and left connectors 106, 108 for mounting the face shield 10 to the front of the hockey helmet 200. Each of the right and left connectors 106, 108 comprises a base portion 110 defining a substantially cylindrical aperture for receiving the central bar 32 and first and second legs 112, 114 extending from the base portion 110, the first and second legs 112, 114 having first and second holes 116, 118 for allowing passage of a screw 120 therethrough.

The transversal gap 40 has a width that is sized to allow movement of the right and left connectors 106, 108 along the central bar 32 of the top portion 20.

Moreover, the transversal gap 40 and the right and left hollow spaces 42, 44 allow movement of the right connector 106 towards the right bar 34 along a right distance of between 0.4 inch and 1.4 inches and movement of the left connector 108 towards the left bar 36 along a left distance of between 0.8 inch and 1.2 inches. The transversal gap 40 and right and left hollow spaces 42, 44 may allow movement of the right connector 106 towards the right bar 34 and movement of the left connector 108 towards the left bar 36 such that the holes of the right and left connectors 106, 108 are spaced apart of a distance between 0.8 inch and 2.5 inches.

The front of the hockey helmet 200 has two mounting apertures for receiving two fasteners, each of the fastener having a base portion embedded into the pad assembly of the helmet and a post with a threaded aperture. The posts of the fasteners are located into the mounting apertures of the hockey helmet 200.

In use, the wearer may mount the right and left connectors 106, 108 on the central bar 32 of the top portion 20. Because of the transversal gap 40 between the central bar 32 and the central projection 38, the wearer may slide the connectors 106, 108 along the central bar 32 to adjust their position with respect to the mounting apertures. Moreover, because of the presence of the right and left hollow spaces 42, 44, the wearer may also turn the right connector 106 in the hollow space 42 and the left connector 108 in the hollow space 44. The transversal gap 40 and the right and left hollow spaces 42, 44 allow the wearer to insert at least partially his thumb or fingers in the central aeration aperture 46 to offer further mounting flexibilities or facilities.

Afterwards, the wearer aligns the holes 116, 118 of the legs 112, 114 of one connector with one mounting aperture of the hockey helmet 200 and will then engage the screw 120 in the threaded aperture of the fastener for affixing the connector to the outer shell and for momentarily mounting the face shield to the hockey helmet 200. The wearer will afterwards align the holes 116, 118 of the legs 112, 114 of the other connector with the other mounting aperture and will then engage another screw 120 in the threaded aperture of the other fastener for affixing the other connector to the outer shell. Once both connectors are in place, the wearer can finalize mounting of the face shield 10 to the hockey helmet 200 by turning the screws 120 up to a point where the face shield 10 is solidly affixed to the hockey helmet 200. The face shield 10 may also comprise a chin pad 122 for engaging the chin C of the wearer.

Any feature of any embodiment discussed herein may be combined with any feature of any other embodiment discussed herein in some examples of implementation. The above description of the embodiments should not be interpreted in a limiting manner since other variations, modifications and refinements are possible within the scope of the present invention. Accordingly, it should be understood that various features and aspects of the disclosed embodiments can be combined with or substituted for one another in order to form varying modes of the disclosed invention. The scope of the invention is defined in the appended claims and their equivalents. 

1. A face shield for a hockey helmet adapted to protect a head of a wearer, the helmet having an outer shell with a front for at least partially covering a forehead of the wearer's head, the face shield having a longitudinal axis, a transversal axis and a height axis, the face shield comprising: a transparent visor portion for at least partially covering the wearer's forehead, a nose and eyes of the wearer and right and left sides of a face of the wearer, wherein the visor portion has top and bottom edges, an inner surface that is concave and an outer surface that is convex; a bottom portion for at least partially covering and encircling a mouth and a chin of the wearer; right and left side portions for at least partially covering the right and left sides of the wearer's face; and a top portion extending upwardly and rearwardly from the top edge of the visor portion, wherein the top portion comprises: a top edge portion having a curvature for generally following a curvature of the front of the outer shell, the top edge portion comprising a central bar extending along the transversal axis and being located on right and left sides with respect to the height axis; right and left bars extending upwardly and rearwardly on the right and left sides from the top edge of the visor portion and being each connected to the top edge portion; and a central projection between the right and left bars projecting upwardly and rearwardly from the top edge of the visor portion; wherein the central bar and the central projection define a transversal gap therebetween; wherein the central bar, the right and left bars and the central projection define right and left hollow spaces therebetween; and wherein the transversal gap and the right and left hollow spaces together define a central aeration aperture being sized to prevent a hockey stick blade or puck from impacting the wearer's face.
 2. The face shied of claim 1, wherein the transversal gap has a width being sized to allow movement of right and left connectors along the central bar.
 3. The face shield of claim 2, wherein the transversal gap and right and left hollow spaces allow movement of the right connector towards the right bar along a right distance of between 0.4 inch and 1.4 inches and movement of the left connector towards the left bar along a left distance of between 1 inch and 2 inches.
 4. The face shield of claim 3, wherein the right and left distances are each between 0.8 inch and 1.2 inches.
 5. The face shield of claim 2, wherein the transversal gap and right and left hollow spaces allow movement of a right connector towards the right bar and movement of a left connector towards the left bar such that holes of the right and left connectors are spaced apart of a distance between 0.8 inch and 2.5 inches.
 6. The face shield of claim 1, further comprising right and left connectors for mounting the face shield to the front of the outer shell, wherein each of the right and left connectors comprises a base portion defining a substantially cylindrical aperture for receiving the central bar and first and second legs extending from the base portion, the first and second legs having first and second holes for allowing passage of a screw therethrough, and wherein the transversal gap has a width being sized to allow movement of the right and left connectors along the central bar.
 7. The face shield of claim 6, wherein the transversal gap and right and left hollow spaces allow movement of the right connector towards the right bar along a right distance of between 0.4 inch and 1.4 inches and movement of the left connector towards the left bar along a left distance of between 0.4 inch and 1.4 inches.
 8. The face shield of claim 7, wherein the right and left distances are each between 0.8 inch and 1.2 inches.
 9. The face shield of claim 6, wherein the transversal gap and right and left hollow spaces allow movement of the right connector towards the right bar and movement of the left connector towards the left bar such that the holes of the right and left connectors are spaced apart of a distance between 0.8 inch and 2.5 inches.
 10. The face shield of claim 1, wherein the top portion further comprises right and left side ends joining together the top edge portion and the visor portion, wherein the right side end, the top edge portion, the top edge and the right bar define a right aeration aperture therebetween and the left side end, the top edge portion, the top edge and the left bar define a left aeration aperture therebetween.
 11. The face shield of claim 1, wherein the right and left bars are first right and left bars and wherein the top portion further comprises right and left side ends joining together the top edge portion and the visor portion and second right and left bars extending upwardly and rearwardly from the top edge of the visor portion and being each connected to the top edge portion, wherein the first right bar, the top edge portion, the top edge and the second right bar define a first right aeration aperture therebetween, wherein the right side end, the top edge portion, the top edge and the second right bar define a second right aeration aperture therebetween, wherein the first left bar, the top edge portion, the top edge and the second left bar define a first left aeration aperture therebetween, and wherein the left side end, the top edge portion, the top edge and the second left bar define a second left aeration aperture therebetween.
 12. The face shield of claim 1, wherein the bottom portion comprises a bottom edge portion extending downwardly and rearwardly for at least partially facing a bottom surface of the wearer's chin and wherein the bottom edge portion comprises top and bottom edges.
 13. The face shield of claim 12, wherein the bottom portion comprises a plurality of bottom bars extending downwardly and rearwardly from the bottom edge of the visor portion towards the top edge of the bottom edge portion and being each connected to the bottom edge portion.
 14. The face shield of claim 13, wherein the plurality of bottom bars comprise a right bottom bar located on the right side and a left bottom bar located on the left side, and wherein the right bottom bar, the bottom edge of the visor portion, the left bottom bar and the top edge of the bottom edge portion define therebetween a central bottom aeration aperture for facing the wearer's mouth.
 15. The face shield of claim 13, wherein the plurality of bottom bars comprise a right bottom bar located on the right side and a left bottom bar located on the left side, wherein the bottom portion further comprises a bottom transversal bar extending from the right side portion to the left side portion along a curvature and being located between the bottom edge of the visor portion and the top edge of the bottom edge portion, wherein the right and left bottom bars are each connected to the bottom transversal bar, wherein the right bottom bar, the bottom edge of the visor portion, the left bottom bar and the bottom transversal bar define therebetween a first central bottom aeration aperture for facing the wearer's mouth, and wherein the right bottom bar, the bottom transversal bar, the left bottom bar and the top edge of the bottom edge portion define therebetween a second central bottom aeration aperture for facing the wearer's mouth.
 16. The face shield of claim 15, wherein the first and second central bottom apertures have first and second sizes, the first size being larger or similar than the second size.
 17. The face shield of claim 15, wherein the right and left bottom bars are first right and left bottom bars, wherein the plurality of bottom bars comprise second and third right bars extending between the bottom edge of the visor portion and the top edge of the bottom edge portion and being each connected to the transversal bottom bar and second and third left bars extending between the bottom edge of the visor portion and the top edge of the bottom edge portion and being each connected to the transversal bottom bar for defining four additional aeration apertures on the right side and four additional aeration apertures on the left side.
 18. A face shield for a hockey helmet adapted to protect a head of a wearer, the helmet having an outer shell with a front for at least partially covering a forehead of the wearer's head, the face shield having a longitudinal axis, a transversal axis and a height axis, the face shield comprising: a transparent visor portion for at least partially covering the wearer's forehead, a nose and eyes of the wearer and right and left sides of a face of the wearer, wherein the visor portion has top and bottom edges, an inner surface that is concave and an outer surface that is convex; a bottom portion for at least partially covering and encircling a mouth and a chin of the wearer; right and left side portions for at least partially covering the right and left sides of the wearer's face; and a top portion extending upwardly and rearwardly from the top edge of the visor portion, wherein the top portion comprises: a top edge portion having a curvature for generally following a curvature of the front of the outer shell, the top edge portion comprising a central bar extending along the transversal axis and being located on right and left sides with respect to the height axis; right and left bars extending upwardly and rearwardly on the right and left sides from the top edge of the visor portion and being each connected to the top edge portion; and a central projection between the right and left bars projecting upwardly and rearwardly from the top edge of the visor portion; wherein the central bar and the central projection define a transversal gap therebetween; wherein the central bar, the right and left bars and the central projection define right and left hollow spaces therebetween; and wherein the transversal gap and the right and left hollow spaces together define a central aeration aperture being sized to prevent a hockey stick blade or puck from impacting the wearer's face and wherein one of the right and left hollow spaces allows a connector mounted on the central bar to pivot within the hollow space.
 19. The face shield of claim 18, wherein the right and left hollow spaces each allows the connector mounted on the central bar to pivot within the hollow space.
 20. A face shield for a hockey helmet adapted to protect a head of a wearer, the helmet having an outer shell with a front for at least partially covering a forehead of the wearer's head, the face shield having a longitudinal axis, a transversal axis and a height axis, the face shield comprising: a transparent visor portion for at least partially covering the wearer's forehead, a nose and eyes of the wearer and right and left sides of a face of the wearer, wherein the visor portion has top and bottom edges, an inner surface that is concave and an outer surface that is convex; a bottom portion for at least partially covering and encircling a mouth and a chin of the wearer, the bottom portion comprising a bottom edge portion extending downwardly and rearwardly for facing a bottom surface of the wearer's chin and wherein the bottom edge portion comprises top and bottom edges; right and left side portions for at least partially covering the right and left sides of the wearer's face; and a top portion extending upwardly and rearwardly from the top edge of the visor portion, wherein the top portion comprises: a top edge portion having a curvature for generally following a curvature of the front of the outer shell, the top edge portion comprising a central bar extending along the transversal axis and being located on right and left sides with respect to the height axis; right and left bars extending upwardly and rearwardly on the right and left sides from the top edge of the visor portion and being each connected to the top edge portion; and a central projection between the right and left bars projecting upwardly and rearwardly from the top edge of the visor portion; wherein the central bar and the central projection define a transversal gap therebetween; wherein the central bar, the right and left bars and the central projection define right and left hollow spaces therebetween; wherein the transversal gap and the right and left hollow spaces together define a central aeration aperture being sized to prevent a hockey stick blade or puck from impacting the wearer's face; and wherein the bottom portion comprises a right bottom bar located on the right side and a left bottom bar located on the left side, and wherein the right bottom bar, the bottom edge of the visor portion, the left bottom bar and the top edge of the bottom edge portion define therebetween a central bottom aeration aperture for facing the wearer's mouth. 